Clinical Trial Details
— Status: Not yet recruiting
Administrative data
| NCT number |
NCT06385600 |
| Other study ID # |
severe preeclampsia |
| Secondary ID |
|
| Status |
Not yet recruiting |
| Phase |
N/A
|
| First received |
|
| Last updated |
|
| Start date |
May 20, 2024 |
| Est. completion date |
March 20, 2026 |
Study information
| Verified date |
April 2024 |
| Source |
Assiut University |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
The only effective treatment of severe preeclampsia is delivery of the fetus but immediate
antihypertensive treatment is given to stabilize the patient and prevent further
complications. All antihypertensive medication can potentially cross the placenta. At this
time, there are no randomized control trials to base a recommendation for the use of one
antihypertensive agent over another. However, certain medications are effective in lowering
blood pressure with an acceptable safety profile in pregnancy. The choice of therapy depends
on the acuity and severity of hypertension
Description:
Non-invasive assessment of cerebral haemodynamics using Transcranial doppler ultrasonography
has recently gained importance. Essentially, TCD measures flow velocity in the insonated
vessel and the changes in flow velocity can be taken to reflect the changes in blood flow,
assuming that the diameter of the insonated vessel remains constant. As TCD is easy to use
and gives reproducible measurements, it has become a widely accepted method of assessing the
cerebrovascular reactivity to carbon dioxide (CRCO2), cerebral autoregulation, estimated CPP,
and CrCP. In patients with neurological disorders, impairment in both cerebral autoregulation
and cerebral vascular reactivity has been shown to predict poor neurological outcome.
Knowledge of the effects of normal pregnancy and pre-eclampsia on cerebral haemodynamics is
essential for appropriate management of these patients undergoing anaesthesia or in labour,
particularly when vasoactive medications are administered. The effects of pregnancy and/or
pre-eclampsia on MCAFV have been studied by other investigators. Ikeda and colleagues found
little change in mean MCAFV during the first two trimesters but reduced values in the third
trimester. Williams and Wilson showed that MCAFV fell significantly with advancing
gestational age. In another study, Williams and Wilson used TCD to assess cerebral
haemodynamics in 17 non-pregnant women, 17 normotensive pregnant women, 20 pregnant women
with pre-existing hypertension, and 21 pre-eclamptic women. The pregnant women were all in
their third trimester. There was no difference in mean MCAFV in healthy pregnancy compared
with non-pregnant women and a small, but non-significant, increase in mean MCAFV in the
hypertensive and pre-eclamptic women. Demarin and colleagues studied pre-eclamptic women
before and after delivery and found a progressive increase in MCAFV during late pregnancy.
Ohno and colleagues compared MCAFV in 35 healthy pregnant and 17 pre-eclamptic women. In this
study, the mean MCAFV was significantly higher in the pre-eclamptic group. It has been
suggested that these increases in MCAFV are because of a degree of vasospasm. The differences
between the findings of various studies with regards to the changes in MCAFV in pre-eclampsia
might be explained by the differences in the severity of pre-eclampsia between the studies.
Some investigators have reported increased MCAFV in symptomatic, compared with asymptomatic
pre-eclamptics.
